We know that the function describing the amount remaining is given by:
[tex]A=A_0e^{-kt}[/tex]
In this case the initial amount is 20 and the decay rate is 0.02 in decimal form, hence the function we need is:
[tex]A=20e^{-0.02t}[/tex]
We want to know how long until the compound reaches one fourth of the original amount, this means that we need to find the time it takes to have 5 gr of the compond. Plugging this value in the function and solving for t we have:
[tex]\begin{gathered} 5=20e^{-0.02t} \\ e^{-0.02t}=\frac{5}{20} \\ e^{-0.02t}=\frac{1}{4} \\ \ln e^{-0.02t}=\ln (\frac{1}{4}) \\ -0.02t=\ln (\frac{1}{4}) \\ t=-\frac{1}{0.02}\ln (\frac{1}{4}) \\ t=69.31 \end{gathered}[/tex]
Therefore it takes approximately 69 years to have one forth of the orginal amount.
